The Experts below are selected from a list of 265563 Experts worldwide ranked by ideXlab platform
Stepa Ozana - One of the best experts on this subject based on the ideXlab platform.
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simulation of mit rule based adaptive controller of a power plant superheater
ICFCE, 2012Co-Authors: Zdenek Machacek, Marti Pies, Stepa OzanaAbstract:MIT rule is one of the basic techniques of adaptive control. It can be embedded into a general scheme of circuit with MRAC Structure (Reference adaptive controller). This paper deals with simulation of MRAC by use of MIT rule for a superheater which is a crucial part of a coal-fired power plant. A superheater has been chosen as a typical practical real plant with time-variant parameters and thus suitable to be controlled by adaptive control mechanism. The paper gives a comparison of adaptive control with MRAC and original PID control currently implemented in a chosen output superheater in Detmarovice power plant. Matlab&Simulink environment is used for a simulation of the control circuit described in this paper.
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ICFCE - Simulation of MIT Rule-Based Adaptive Controller of a Power Plant Superheater
Frontiers in Computer Education, 2012Co-Authors: Zdenek Machacek, Marti Pies, Stepa OzanaAbstract:MIT rule is one of the basic techniques of adaptive control. It can be embedded into a general scheme of circuit with MRAC Structure (Reference adaptive controller). This paper deals with simulation of MRAC by use of MIT rule for a superheater which is a crucial part of a coal-fired power plant. A superheater has been chosen as a typical practical real plant with time-variant parameters and thus suitable to be controlled by adaptive control mechanism. The paper gives a comparison of adaptive control with MRAC and original PID control currently implemented in a chosen output superheater in Detmarovice power plant. Matlab&Simulink environment is used for a simulation of the control circuit described in this paper.
Zdenek Machacek - One of the best experts on this subject based on the ideXlab platform.
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simulation of mit rule based adaptive controller of a power plant superheater
ICFCE, 2012Co-Authors: Zdenek Machacek, Marti Pies, Stepa OzanaAbstract:MIT rule is one of the basic techniques of adaptive control. It can be embedded into a general scheme of circuit with MRAC Structure (Reference adaptive controller). This paper deals with simulation of MRAC by use of MIT rule for a superheater which is a crucial part of a coal-fired power plant. A superheater has been chosen as a typical practical real plant with time-variant parameters and thus suitable to be controlled by adaptive control mechanism. The paper gives a comparison of adaptive control with MRAC and original PID control currently implemented in a chosen output superheater in Detmarovice power plant. Matlab&Simulink environment is used for a simulation of the control circuit described in this paper.
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ICFCE - Simulation of MIT Rule-Based Adaptive Controller of a Power Plant Superheater
Frontiers in Computer Education, 2012Co-Authors: Zdenek Machacek, Marti Pies, Stepa OzanaAbstract:MIT rule is one of the basic techniques of adaptive control. It can be embedded into a general scheme of circuit with MRAC Structure (Reference adaptive controller). This paper deals with simulation of MRAC by use of MIT rule for a superheater which is a crucial part of a coal-fired power plant. A superheater has been chosen as a typical practical real plant with time-variant parameters and thus suitable to be controlled by adaptive control mechanism. The paper gives a comparison of adaptive control with MRAC and original PID control currently implemented in a chosen output superheater in Detmarovice power plant. Matlab&Simulink environment is used for a simulation of the control circuit described in this paper.
Marti Pies - One of the best experts on this subject based on the ideXlab platform.
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simulation of mit rule based adaptive controller of a power plant superheater
ICFCE, 2012Co-Authors: Zdenek Machacek, Marti Pies, Stepa OzanaAbstract:MIT rule is one of the basic techniques of adaptive control. It can be embedded into a general scheme of circuit with MRAC Structure (Reference adaptive controller). This paper deals with simulation of MRAC by use of MIT rule for a superheater which is a crucial part of a coal-fired power plant. A superheater has been chosen as a typical practical real plant with time-variant parameters and thus suitable to be controlled by adaptive control mechanism. The paper gives a comparison of adaptive control with MRAC and original PID control currently implemented in a chosen output superheater in Detmarovice power plant. Matlab&Simulink environment is used for a simulation of the control circuit described in this paper.
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ICFCE - Simulation of MIT Rule-Based Adaptive Controller of a Power Plant Superheater
Frontiers in Computer Education, 2012Co-Authors: Zdenek Machacek, Marti Pies, Stepa OzanaAbstract:MIT rule is one of the basic techniques of adaptive control. It can be embedded into a general scheme of circuit with MRAC Structure (Reference adaptive controller). This paper deals with simulation of MRAC by use of MIT rule for a superheater which is a crucial part of a coal-fired power plant. A superheater has been chosen as a typical practical real plant with time-variant parameters and thus suitable to be controlled by adaptive control mechanism. The paper gives a comparison of adaptive control with MRAC and original PID control currently implemented in a chosen output superheater in Detmarovice power plant. Matlab&Simulink environment is used for a simulation of the control circuit described in this paper.
Volkmar P. Engerer - One of the best experts on this subject based on the ideXlab platform.
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Implementing dynamicity in research designs for collaborative digital writing
Education and Information Technologies, 2020Co-Authors: Volkmar P. EngererAbstract:This paper implements a dynamic (i.e. temporal and local) research design for collaborative digital writing (CDW) in writing assignments in higher education. This research design builds on my paper “Temporality revisited: Dynamicity issues in collaborative digital writing research”, published in this journal (Engerer 2020 ). The design identifies current state-of-the-art approaches to digital writing and introduces 1) the components of text (the process and products of writing and learning communication), 2) external variables such as learning orientations and group composition, 3) an intermediate layer of time management that is related to organizing the assignment, and 4) the sphere of knowledge construction. The main modification, however, is the addition of four features specifically connected to time-related aspects: 5) micro-analysis, 6) dynamicity, 7) writer relevance and 8) source status. This dynamized research design is applied in a study of writing assignments carried out by the author with students of information science in the spring term of 2016. It is demonstrated how the temporal organization of a CDW process can be visualized and how central concepts such as Task Structure, Reference Structure and Final target Structure are construed, operationalized and dynamically related to each other. Furthermore, a real-time analysis of sequential concept building is provided. The discussion shows that the study integrates all the above elements 1)-8) of a dynamic research design for CDW, although to different degrees. The study presented here can provide a general background for designing research in CDW and can inspire CDW researchers to capture in their research designs the dynamic, time-related features in CDW.
Xue Jiang - One of the best experts on this subject based on the ideXlab platform.
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Study on Identification of Lexical Meaning in E-C Translation of English for Electric Power
Theory and Practice in Language Studies, 2019Co-Authors: Xue JiangAbstract:As one of the branch of English for Science and Technology, English for Electric Power bears the characteristic of professionalism in meaning and flexible in lexis. As key components in professional literatures, lexis of English for Electric Power needs to be paid enough attention and accurately identified in order to precisely comprehend professional reading materials. This paper focuses on solving the problem of identifying Electric English vocabulary precisely by analyzing the determination of the professional lexis from three aspects of morphological Structure, Reference relations and context. Distinguishing the meaning of Electric Power English vocabulary is a crucial part in the translation practice of Electric Power English, which plays a vital role in ultimately understand and grasp the content of professional materials fully.
